JPH09223933A - Operational amplifier connection circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an operational amplifier circuit capable of effectively removing power supply noise without being affected by a minute potential difference and a noise current between ground points to be the cause of noise. SOLUTION: In plural operational amplifiers 13 and 17 serially connected from an upstream side to a downstream side, a reference voltage terminal TREF to be inputted to the operational amplifier 17 on the downstream side is grounded and the reference voltage terminal TREF to be inputted to the operational amplifier 13 on the upstream side is connected through a reference power supply bypass capacitor C1 to the grounded reference voltage terminal of the operational amplifier on the downstream side. Thus, since the minute potential difference is not generated and the noise current is not made to flow between the two reference voltage terminals, the generation of the noise and distortion, etc., of signals outputted from the operational amplifier on the downstream side is surely prevented. Also, since the reference voltage terminal on the upstream side is connected through the reference power supply bypass capacitor to the reference voltage terminal on the downstream side, the power supply noise is surely removed as well.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operational amplifier connection circuit such as a circuit in the case where an output amplified by an operational amplifier of a D / A converter is amplified by another operational amplifier on the downstream side.

[0002]

2. Description of the Related Art As a conventional operational amplifier connection circuit, for example, there is one shown in FIG. In the figure, reference numeral 11 is a circuit forming a part of the D / A converter, which is not shown in its entirety, and has an operational amplifier 13. Reference numeral 15 is a circuit forming a part of the frequency correction circuit and the like, and has an operational amplifier 17. An electrolytic capacitor C ₁ is provided between the circuits 11 and 15 for removing a DC component from the output signal from the operational amplifier 13 of the circuit 11 and passing a signal of only an AC component.

The output signal after the D / A conversion processing is input to the input terminal 13a connected to the inverting input terminal (-side) of the operational amplifier 13 via the resistor R ₁ . Operational amplifier 13
The non-inverting input terminal (+ side) of the reference voltage is regulated between the resistor R ₂ on the power source side and the grounded (grounded) R ₃ and is also grounded via the reference power source bypass capacitor C _2. the reference voltage V _REF voltage terminal T _REF is input. The reference power supply bypass capacitor C ₂ is composed of an electrolytic capacitor, and this capacitor is provided to remove power supply noise. Further, the output signal of the operational amplifier 13 is fed back to its inverting input terminal (-side) via the resistor R ₄ ,
It is applied again to the input signal from the input terminal 13a.

The output signal of the operational amplifier 13 is output from the circuit 11 and input to the circuit 15 via the electrolytic capacitor C ₁ , and the input signal is input to the inverting input terminal (-side) of the operational amplifier 17 via the resistor R _5. Is entered. Further, the non-inverting input terminal (+ side) of the operational amplifier 17 is inputted with the reference voltage V _REF of the grounded reference voltage terminal T _REF . Further, the output signal of the operational amplifier 17 is fed back to its inverting input terminal (− side) via the resistor R ₆ , and applied to the input signal from the circuit 11 to be input again.

The operational amplifier connection circuit for connecting the operational amplifiers 13 and 17 as described above has a D / D output from the input terminal 13a.
The input signal after the A conversion processing is compared with the reference voltage V _REF by the operational amplifier 13, amplified and output, and then grounded by the operational amplifier 17 connected to the downstream side.
_It is compared with _REF , amplified, and output to another circuit on the downstream side on the right side outside the drawing.

[0006]

However, the ground point A for removing the power supply noise of the operational amplifier 13 is used.
And the ground point B of the reference voltage terminal T _REF of the operational amplifier 17 are connected to the GND (ground) member at different positions separated from each other, the GND member is usually connected to a frame or a frame having a large mass of a device having a circuit. Since it is composed of a case and other circuit terminals are also grounded to such a GND member, as shown in FIG. 4, another circuit is substantially provided between ground points A and B. Terminals J, K, L
Etc. can be considered equivalent to being grounded. Therefore, the ground points A and B are not exactly equal in potential, and such a minute potential difference and noise currents from the other circuit terminals J, K, L, etc. cause noise, and When the reference voltage V _REF containing noise is input to the operational amplifier 17, it is amplified by the operational amplifier 17, and the circuit 15
There is a problem that it causes noise, distortion, etc. of the signal output from the.

Further, even if an attempt is made to remove power supply noise by grounding the reference voltage terminal T _REF via the reference power supply bypass capacitor C ₂ as described above, this method can suppress fluctuations in the power supply voltage. However, it has been the situation until now that the power supply noise has not been fundamentally removed.

Therefore, it is an object of the present invention to provide an operational amplifier connection circuit which is not affected by a minute potential difference between ground points or noise current which causes noise and which can effectively remove power supply noise. To do.

[0009]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, according to the present invention, in a plurality of operational amplifiers connected in series from the upstream side to the downstream side, a reference voltage terminal to be input to the operational amplifier on the downstream side is grounded. However, the reference voltage terminal to be input to the upstream operational amplifier is connected to the grounded reference voltage terminal of the downstream operational amplifier via the reference power supply bypass capacitor.

According to the operational amplifier connection circuit having such a configuration, the reference voltage terminal to be input to the operational amplifier on the upstream side is connected to the grounded reference voltage terminal of the operational amplifier on the downstream side instead of being grounded. As described above, the other circuit terminal is not substantially connected between the reference voltage terminal of the operational amplifier on the upstream side and the reference voltage terminal of the operational amplifier on the downstream side, and a small potential difference is generated between the two reference voltage terminals. Since it does not occur or a noise current does not flow in, it is possible to reliably prevent generation of noise, distortion, etc. of the signal output from the operational amplifier on the downstream side.

Further, since the reference voltage terminal of the operational amplifier on the upstream side is connected to the reference voltage terminal of the operational amplifier on the downstream side through the reference power supply bypass capacitor, the power supply noise is introduced to the reference voltage terminal of the operational amplifier on the downstream side and is connected to the downstream side. The power supply noise of the same phase is input from the operational amplifier on the upstream side to the inverting input terminal of the operational amplifier on the downstream side, so it cancels out during differential amplification, and the power supply noise can be reliably removed. .

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a first embodiment of an operational amplifier connection circuit according to the present invention. The same parts as those of the related art or the parts corresponding to the same parts are designated by the same reference numerals, and detailed description of those parts and configurations overlapping with those of the related art will be omitted.

In the conventional operational amplifier connection circuit, the reference voltage terminal T _REF of the circuit 11 is “grounded” via the reference power supply bypass capacitor C ₂ , whereas in the operational amplifier connection circuit according to the present embodiment. As shown in FIG. 1, the reference voltage terminal T _REF of the circuit 11 is grounded on the input side to the “non-inverting input terminal (+ side) of the operational amplifier 17 of the circuit 15 on the downstream side via the reference power supply bypass capacitor C _2. They are connected to the reference voltage terminal T _REF that is connected to each other.

According to the operational amplifier connection circuit according to such an embodiment, as in the conventional case, the operational amplifier 13 on the upstream side is provided.
Substantially no longer possible, as connected other circuit terminals, small potential difference between two reference voltage terminals T _REF between the reference voltage the reference voltage terminal T _REF terminal T _REF and the downstream side of the operational amplifier 17 Since no noise occurs and no noise current flows in, it is possible to reliably prevent the generation of noise, distortion, etc. of the signal output from the operational amplifier 17 on the downstream side.

The reference voltage terminal T _REF of the upstream operational amplifier 13 is connected to the reference voltage terminal T _REF of the downstream operational amplifier 17.
_{Since REF} and the reference power supply bypass capacitor C ₂ are connected, power supply noise is brought into the reference voltage terminal T _REF of the operational amplifier 17 on the downstream side and input to the operational amplifier 17 on the downstream side. Since the power supply noise of the same phase is input from the operational amplifier 13 on the upstream side to the input terminal (-side), it cancels each other out during the differential amplification.
Power supply noise can be reliably removed.

FIG. 2 is a diagram showing a second embodiment of the operational amplifier connection circuit according to the present invention. Operational amplifier connection circuit according to the present embodiment, the operational amplifier connected circuit differs from that according to the first embodiment, the bypass capacitor C ₃ to the noise power of the high frequency band (the number 100K～MH _Z bands), audio a point of using a bypass capacitor C ₄ to noise band (several 100KH _Z below). A ceramic capacitor to the bypass capacitor C _3, and an electrolytic capacitor to the bypass capacitor C _4.

By the way, such a high frequency band bypass capacitor C ₃ and an audio band bypass capacitor C ₄
As an operational amplifier connection circuit using the, there is a circuit as shown in FIG. The conventional operational amplifier connection circuit shown in the figure is the same as the conventional operational amplifier connection circuit shown in FIG. 3 except that a high frequency band bypass capacitor C ₃ and an audio band bypass capacitor C ₄ are provided. Not only does the conventional operational amplifier connection circuit shown in FIG. 3 have the same problem, but the conventional operational amplifier connection circuit shown in FIG. 5 has another problem in the following sense.

That is, since the audio band bypass capacitor C _{4, which} has a close influence on the output of the operational amplifier 13, is grounded, even if an attempt is made to remove noise in the audio band of the power supply, only fluctuations in the power supply voltage are suppressed and the power supply It is not possible to fundamentally remove noise in the audio band.

The ground point A for removing noise in the audio band of the power supply and the ground point B of the reference voltage terminal T _REF of the operational amplifier 17 are GND (ground).
By connecting the members at different positions apart from each other, it can be considered that the other circuit terminals are substantially grounded between the grounding points A and B, and therefore the grounding points A and B are connected to each other. The potentials are not exactly equal to each other, and such a minute potential difference and noise currents from other circuit terminals cause noise, and a reference voltage including such noise is input to the operational amplifier 17. Operational amplifier 1
In No. 7, such noise is amplified and causes a problem such as noise and distortion of the signal output from the circuit 15.

Therefore, in the operational amplifier connection circuit according to the second embodiment of the present invention, as shown in FIG. 2, a part of the operational amplifier connection circuit has the same configuration as that of the operational amplifier connection circuit according to the first embodiment. Solves the problem of the conventional operational amplifier connection circuit shown in FIG. 3, and instead of grounding the other end of the audio band bypass capacitor C ₄ whose one end is connected to the power supply as shown in FIG. As shown, it is connected to the connection line between the reference voltage terminal T _REF of the circuit 11 and the reference power supply bypass capacitor C ₂ .

According to such a configuration, as in the conventional case, substantially another circuit terminal is connected between the reference voltage terminal T _REF of the operational amplifier 13 on the upstream side and the reference voltage terminal T _REF of the operational amplifier 17 on the downstream side. Since there is no such a situation, a slight potential difference or noise current does not flow between the two reference voltage terminals T _REF , so that the operational amplifier 17 on the downstream side is not affected.
It is possible to reliably prevent the generation of noise, distortion, etc. of the signal output from the.

Further, according to the operational amplifier connection circuit according to such an embodiment, the noise in the audio band of the power supply causes the reference voltage terminal T of the operational amplifier 17 of the circuit 15 on the downstream side.
_Although it is brought into _REF and input to its non-inverting input terminal (+ side), power supply noise of the same phase is also input to the inverting input terminal (-side) of the operational amplifier 17 from the operational amplifier 13 on the upstream side. They can cancel each other out during dynamic amplification, and can reliably remove power supply noise.

[0023]

As described above, according to the present invention, the reference voltage terminal to be input to the operational amplifier on the upstream side is connected to the reference voltage terminal on the grounded downstream operational amplifier instead of being grounded. It is possible to prevent the other circuit terminal from being connected between the reference voltage terminal of the operational amplifier on the upstream side and the reference voltage terminal of the operational amplifier on the downstream side. Since no noise occurs and no noise current flows in, it is possible to reliably prevent the generation of noise, distortion, and the like in the signal output from the operational amplifier on the downstream side.

Further, since the reference voltage terminal of the operational amplifier on the upstream side is connected to the reference voltage terminal of the operational amplifier on the downstream side via the reference power supply bypass capacitor, the power supply noise is brought into the reference voltage terminal of the operational amplifier on the downstream side and is connected to the downstream side. The power supply noise of the same phase is input from the operational amplifier on the upstream side to the inverting input terminal of the operational amplifier on the downstream side, so it cancels out during differential amplification, and the power supply noise can be reliably removed. .

According to the second embodiment of the present invention, the other end of the audio band bypass capacitor C ₄ whose one end is connected to the power supply is connected to the reference voltage terminal T _REF of the circuit 11 and the reference power supply bypass capacitor C 4. _Since it was connected to the connection line between ₂
Substantially no longer possible, as connected other circuit terminals, small potential difference between two reference voltage terminals T _REF between the reference voltage the reference voltage terminal T _REF terminal T _REF and the downstream side of the operational amplifier 17 Since no noise occurs and no noise current flows in, it is possible to reliably prevent the generation of noise, distortion, etc. of the signal output from the operational amplifier 17 on the downstream side.

Further, according to the second embodiment of the present invention, noise in the audio band of the power source is generated by the circuit 1 on the downstream side.
5 is input to the reference voltage terminal T _REF of the operational amplifier 17 and is input to the non-inverting input terminal (+ side) of the operational amplifier 17, and the inverting input terminal (− side) of the operational amplifier 17 has the same phase from the upstream operational amplifier 13. Since power supply noise is input, it is possible to cancel each other out during differential amplification and to reliably remove power supply noise.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a first embodiment of an operational amplifier connection circuit according to the present invention.

FIG. 2 is a circuit diagram showing a second embodiment of an operational amplifier connection circuit according to the present invention.

FIG. 3 is a circuit diagram showing a conventional operational amplifier connection circuit.

4 is a circuit diagram showing an operational amplifier connection circuit which is substantially the same as the conventional operational amplifier connection circuit shown in FIG.

FIG. 5 is a circuit diagram showing another conventional operational amplifier connection circuit.

[Explanation of symbols]

11, 15 circuit 13, 17 operational amplifier 13a input terminal R _{1 to} R ₆ resistance C ₁ electrolytic capacitor C ₂ reference power supply bypass capacitor C ₃ high frequency band bypass capacitor C ₄ audio band bypass capacitor T _REF reference voltage terminal V _REF reference voltage

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Riki Miyamoto 2-14-9 Tamagawadai, Setagaya-ku, Tokyo Kyocera Corporation Tokyo Yoga Works

Claims (2)

[Claims] 1. In a plurality of operational amplifiers connected in series from upstream to downstream, a reference voltage terminal to be input to a downstream operational amplifier is grounded, and a reference voltage terminal to be input to an upstream operational amplifier is connected. An operational amplifier connection circuit, which is connected to a reference voltage terminal of the grounded operational amplifier on the downstream side through a reference power supply bypass capacitor. 2. The other end of the bypass capacitor for audio band noise of the power supply, one end of which is connected to the power supply, in the connection line between the reference voltage terminal to be input to the upstream operational amplifier and the reference power supply bypass capacitor. The operational amplifier connection circuit according to claim 1, wherein